Mercurial > octave
view libinterp/parse-tree/pt-loop.h @ 28240:2fb684dc2ec2
axis.m: Implement "fill" option for Matlab compatibility.
* axis.m: Document that "fill" is a synonym for "normal". Place "vis3d" option
in documentation table for modes which affect aspect ratio. Add
strcmpi (opt, "fill") to decode opt and executed the same behavior as "normal".
| author | Rik <rik@octave.org> |
|---|---|
| date | Fri, 24 Apr 2020 13:16:09 -0700 |
| parents | bd51beb6205e |
| children | 0a5b15007766 |
line wrap: on
line source
//////////////////////////////////////////////////////////////////////// // // Copyright (C) 1996-2020 The Octave Project Developers // // See the file COPYRIGHT.md in the top-level directory of this // distribution or <https://octave.org/copyright/>. // // This file is part of Octave. // // Octave is free software: you can redistribute it and/or modify it // under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // Octave is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with Octave; see the file COPYING. If not, see // <https://www.gnu.org/licenses/>. // //////////////////////////////////////////////////////////////////////// #if ! defined (octave_pt_loop_h) #define octave_pt_loop_h 1 #include "octave-config.h" class octave_value; #include "pt-cmd.h" #include "pt-walk.h" #include "pt-jit.h" namespace octave { class jit_info; class tree_argument_list; class tree_expression; class tree_statement_list; // While. class tree_while_command : public tree_command { public: tree_while_command (int l = -1, int c = -1) : tree_command (l, c), m_expr (nullptr), m_list (nullptr), m_lead_comm (nullptr), m_trail_comm (nullptr) #if defined (HAVE_LLVM) , m_compiled (nullptr) #endif { } tree_while_command (tree_expression *e, comment_list *lc = nullptr, comment_list *tc = nullptr, int l = -1, int c = -1) : tree_command (l, c), m_expr (e), m_list (nullptr), m_lead_comm (lc), m_trail_comm (tc) #if defined (HAVE_LLVM) , m_compiled (nullptr) #endif { } tree_while_command (tree_expression *e, tree_statement_list *lst, comment_list *lc = nullptr, comment_list *tc = nullptr, int l = -1, int c = -1) : tree_command (l, c), m_expr (e), m_list (lst), m_lead_comm (lc), m_trail_comm (tc) #if defined (HAVE_LLVM) , m_compiled (nullptr) #endif { } // No copying! tree_while_command (const tree_while_command&) = delete; tree_while_command& operator = (const tree_while_command&) = delete; ~tree_while_command (void); tree_expression * condition (void) { return m_expr; } tree_statement_list * body (void) { return m_list; } comment_list * leading_comment (void) { return m_lead_comm; } comment_list * trailing_comment (void) { return m_trail_comm; } void accept (tree_walker& tw) { tw.visit_while_command (*this); } #if defined (HAVE_LLVM) // some functions use by tree_jit jit_info * get_info (void) const { return m_compiled; } void stash_info (jit_info *jinfo) { m_compiled = jinfo; } #endif protected: // Expression to test. tree_expression *m_expr; // List of commands to execute. tree_statement_list *m_list; // Comment preceding WHILE token. comment_list *m_lead_comm; // Comment preceding ENDWHILE token. comment_list *m_trail_comm; private: #if defined (HAVE_LLVM) // compiled version of the loop jit_info *m_compiled; #endif }; // Do-Until. class tree_do_until_command : public tree_while_command { public: tree_do_until_command (int l = -1, int c = -1) : tree_while_command (l, c) { } tree_do_until_command (tree_expression *e, comment_list *lc = nullptr, comment_list *tc = nullptr, int l = -1, int c = -1) : tree_while_command (e, lc, tc, l, c) { } tree_do_until_command (tree_expression *e, tree_statement_list *lst, comment_list *lc = nullptr, comment_list *tc = nullptr, int l = -1, int c = -1) : tree_while_command (e, lst, lc, tc, l, c) { } // No copying! tree_do_until_command (const tree_do_until_command&) = delete; tree_do_until_command& operator = (const tree_do_until_command&) = delete; ~tree_do_until_command (void) = default; void accept (tree_walker& tw) { tw.visit_do_until_command (*this); } }; // For. class tree_simple_for_command : public tree_command { public: tree_simple_for_command (int l = -1, int c = -1) : tree_command (l, c), m_parallel (false), m_lhs (nullptr), m_expr (nullptr), m_maxproc (nullptr), m_list (nullptr), m_lead_comm (nullptr), m_trail_comm (nullptr) #if defined (HAVE_LLVM) , m_compiled (nullptr) #endif { } tree_simple_for_command (bool parallel_arg, tree_expression *le, tree_expression *re, tree_expression *maxproc_arg, tree_statement_list *lst, comment_list *lc = nullptr, comment_list *tc = nullptr, int l = -1, int c = -1) : tree_command (l, c), m_parallel (parallel_arg), m_lhs (le), m_expr (re), m_maxproc (maxproc_arg), m_list (lst), m_lead_comm (lc), m_trail_comm (tc) #if defined (HAVE_LLVM) , m_compiled (0) #endif { } // No copying! tree_simple_for_command (const tree_simple_for_command&) = delete; tree_simple_for_command& operator = (const tree_simple_for_command&) = delete; ~tree_simple_for_command (void); bool in_parallel (void) { return m_parallel; } tree_expression * left_hand_side (void) { return m_lhs; } tree_expression * control_expr (void) { return m_expr; } tree_expression * maxproc_expr (void) { return m_maxproc; } tree_statement_list * body (void) { return m_list; } comment_list * leading_comment (void) { return m_lead_comm; } comment_list * trailing_comment (void) { return m_trail_comm; } void accept (tree_walker& tw) { tw.visit_simple_for_command (*this); } #if defined (HAVE_LLVM) // some functions use by tree_jit jit_info * get_info (void) const { return m_compiled; } void stash_info (jit_info *jinfo) { m_compiled = jinfo; } #endif private: // TRUE means operate in parallel (subject to the value of the // maxproc expression). bool m_parallel; // Expression to modify. tree_expression *m_lhs; // Expression to evaluate. tree_expression *m_expr; // Expression to tell how many processors should be used (only valid // if parallel is TRUE). tree_expression *m_maxproc; // List of commands to execute. tree_statement_list *m_list; // Comment preceding FOR token. comment_list *m_lead_comm; // Comment preceding ENDFOR token. comment_list *m_trail_comm; #if defined (HAVE_LLVM) // compiled version of the loop jit_info *m_compiled; #endif }; class tree_complex_for_command : public tree_command { public: tree_complex_for_command (int l = -1, int c = -1) : tree_command (l, c), m_lhs (nullptr), m_expr (nullptr), m_list (nullptr), m_lead_comm (nullptr), m_trail_comm (nullptr) { } tree_complex_for_command (tree_argument_list *le, tree_expression *re, tree_statement_list *lst, comment_list *lc = nullptr, comment_list *tc = nullptr, int l = -1, int c = -1) : tree_command (l, c), m_lhs (le), m_expr (re), m_list (lst), m_lead_comm (lc), m_trail_comm (tc) { } // No copying! tree_complex_for_command (const tree_complex_for_command&) = delete; tree_complex_for_command& operator = (const tree_complex_for_command&) = delete; ~tree_complex_for_command (void); tree_argument_list * left_hand_side (void) { return m_lhs; } tree_expression * control_expr (void) { return m_expr; } tree_statement_list * body (void) { return m_list; } comment_list * leading_comment (void) { return m_lead_comm; } comment_list * trailing_comment (void) { return m_trail_comm; } void accept (tree_walker& tw) { tw.visit_complex_for_command (*this); } private: // Expression to modify. tree_argument_list *m_lhs; // Expression to evaluate. tree_expression *m_expr; // List of commands to execute. tree_statement_list *m_list; // Comment preceding FOR token. comment_list *m_lead_comm; // Comment preceding ENDFOR token. comment_list *m_trail_comm; }; } #endif